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ZPA is best suited to the measurement of exhaust gas from refuse incinerators, boilers, and various industrial furnaces.
NO, SO2, CO2, CO, CH4 Non-dispersion infrared-ray absorption methodSingle light source and single beams (single beam system) O2 : Galvanic fuel cell O2 analyzer (built-in) paramagnetic O2 analyzer (built-in), or zirconia O2 analyzer (externally installed TYPE: ZFK7) -
The Ankersmid wash bottle serves different purposes. First of all, the wash bottle can wash out sample gases. The second application is its role in maintaining a constant pressure upstream of the analyzer by establishing a constant differential pressure with respect to the atmosphere by using the second inlet.
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The VM-3000 Mercury Vapor Monitor measures the mercury concentration in gases continuously. It is used in the laboratory or can be installed at places where mercury has to be monitored. It is a great tool for plenty of different fields of applications in scientific research or the industrial sector:
- Work place monitoring
- Research and science
- Emissions monitoring
- Quality control of industrial gas
- Investigation of contaminated sites
- Environmental monitoring
- Hazardous waste inspection
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Ankersmid Universal Filters are known as a reliable technique for the separation of particles from gas, ensuring a flow of clean gas to the analyzer. Filter housings in a variety of materials and standard dimensions are available.
The design of the filter and filter housing also ensures that any liquids present in the gas will be separated from the gas.
Liquids are collected in the bottom of the filter-housing.
Due to its universal standard dimensions and functionality, the filter elements can also be used with any commercially available filter housings.
The filters are easily replaced without the use of any additional tools.
Where needed, a liquid sensor or liquid drain can be installed at the bottom of the filter housing tube.
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Measuring of Total Gaseous Mercury (TGM) in air and other gases at ultra trace levels
The UT-3000 Mercury Ultratracer provides a compact and reliable tool for measuring mercury in gases at ultra trace levels. Utilizing the high performance GoldTrap amalgamation module and an optimized state-of-the-art AA-mercury vapor detector the UT-3000 Ultratracer offers detection limits at sub-ng/m³ (ppq-parts per quadrillion) levels. -
The new Mercury Tracker-3000 XS
- lighter - smaller - more comfortable We updated the well-proven Mercury Tracker 3000 IP! The new Mercury Tracker-3000 XS weighs even less, it is smaller, easier to handle and features GPS, a 5.7" color TFT display and new high performance Eneloop battery pack with minimized self-discharge. Needless to say the benefits of the old Tracker were not discarded.- Real time measurement
- High precision measuring principle: atomic absorption (AAS)
- Easy to operate
- Shock proof and corrosion resistant for rugged field operation
- Measuring ranges 0.1-100 / 0-1000 / 0-2000 µg/m³
- High resolution 0.0001 mg/m³
- Data logger integrated
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De T-flensoplossing van NEO Monitors is ontworpen om twee LaserGas™ III (Ultra)-analysatoren op één paar flenzen te plaatsen. Dit maakt metingen met lange optische padlengtes mogelijk, terwijl de benodigde ruimte en installatiekosten worden verminderd. Door het compacte ontwerp zijn de spoelvereisten zeer laag, wat de bedrijfskosten verlaagt. Dankzij een zeer configureerbaar ontwerp kan de T-flensoplossing eenvoudig worden aangepast aan verschillende configuraties en toepassingen; individuele analysers kunnen eenvoudig worden vervangen. De certificeringen van de respectievelijke analysers, b.v. EX-d of SIL2 blijven behouden bij gebruik in de T-flensoplossing. Een typische toepassing is verbrandingsanalyse waarbij de T-Flange in combinatie met een LaserGas™ III O2 en een LaserGas™ III CO Ultra de perfecte oplossing is voor procesoptimalisatie en veiligheid.
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Technically identical to the SM-4, this device is ideal for mercury determination at varying sites. The SM-4 Mobile by Mercury Instruments has been developed on the basis of the well proven SM-4 mercury stack gas monitor. Its measurement principle and technique, its thermocatalytic reactor, the detector and the sample probe are identical with those of the stationary SM-4.
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QAL 1 certified for continuous, accurate and reliable measurement of total mercury emissions, even in very low concentrations and within complex matrices (SO2, NOx, HCl, etc.) With over 20 years experience, Mercury Instruments (part of ENVEA Group) were the first to develop mercury monitors and mercury analyzers using a dry thermocatalytic method instead of wet chemistry. The SM-4 Mercury Monitor is QAL1 certified and is ready to meet future regulatory requirements (Minamata convention & European directives for thermal power plants and incinerators).
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The SM-3 mercury analyzer measures continuously the elemental, bound and ionic mercury in stack fluegasThe operating principle of the SM-3 is based on a completely new technique: mercury compounds cracking and the reduction of ionic mercury contained in stack gas is performed applying the thermocatalytic method. Wet chemical sample gas treatment using reagents and bubblers is avoided. Maintenance and servicing of the SM-3 are therefore extremely easy.
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The 204M is a transportable CEM based on FTIR technology. Using the 204M for measurements of waste incineration and combustion plant process is as simple using an FTIR can be. With pre-loaded calibration methods for 28 gas species, automatic nitrogen purging, in-built pressure and temperature alarms, analogue and digital I/O it is a complete site-ready back up CEM. The ProtIR 204M and PAS software have been designed to allow stack emission monitoring to be carried out to the Environment Agency’s Technical Guidance Note M22 Measuring stack gas emissions using FTIR instruments (TGN M22) as simply and quickly as possible. With the built-in Standard Analysis Model for common gases there is no complex set-up of analysis required. The software as built-in calculations for drift and residual analysis, following the methods described in TGN M22. Skilled users of the FTIR can use the chemometric building routines of the PAS software to build analytical methods for specific applications. Set up this way, the 204M can measure thousands of possible gas species over ranges from ppm to %Vol.
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Protea 5000 is an ultra-violet (UV), continuous emission monitoring analyser, designed for in-situ analysis of gas-phase emission components. Using absorption spectroscopy, Protea 5000 stores and analyses the full UV spectrum and calculates the gas emission concentrations for e.g. NH3, Cl2, HCl, SO2, F2 and many more.
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“P2000 is an infra-red (IR), duct or stack-mounted Analyser, designed to provide In-Situ analysis of up to six gas-phase emission components such as CO, CO2, SO2, NO, NO2 and many more. A typical system comprises of a stack mounted Analyser, an integral Calibration Module and a Control Unit with options which include a powerful In-Situ Heater and a stand-alone Analysis Software package.
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For use in the field, ProMass can be provided in a rugged mobile case. With a vacuum start-up in less than 40mins, ProMass can be deployed quickly. Using either the simple PAS-Pro software for unattended operation, or the more complex PAS software for investigation work, ProMass Transportable can give real-time, wide range measurements of any gas.
- Leak testing (sniffer mode)
- Syngas analysis
- Environmental testing
- Dissolved gas analysis (with membrane inlet)
- Gas impurity testing
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Ideally suited to semiconductor production processes, ambient air measurements, leak testing and quality testing for the food industry, the 19” mountable ProMass analyser is a complete process tool. ProMass can be provided with fully integrated vacuum system, or for demanding process applications, an external backing pump is provided – particularly for hazardous area applications. Protea will integrate the ProMass analyser with our sampling control system and industrial analyser controller for a complete measurement system. This can be provided to measure from multiple sample locations is quick succession.
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Laboratory QMS Gas Analyser For laboratory applications across many fields of research, the ProMass analyser can be provided in a desktop format. With integrated vacuum system – turbo molecular drag pump and diaphragm roughing pump – ProMass can be operated straight away. A heated capillary of various materials (stainless steel, PEEK, PTFE, borosilicate) is provided included with temperature control of the capillary. Total pressure gauge, analogue and digital inputs, sample pressure and temperature controlled chamber bake-out are all built-in features to give complete sample control. ProMass uses Protea’s proven RGA quadrupole mass spectrometer that is provided as standard with dual Faraday/SEM detector, closed ion source and 0-200amu range for the analytically focused applications of the ProMass desktop system.
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The APA analysers are suitable and reliable instruments for monitoring oxygen concentrations in various gas analytical control applications including flue gas-, inert gas-, fermentation processes- and process or laboratory control measurements. All analysers are temperature controlled instruments which have been designed for continuous measurements of oxygen concentrations in particle-free and dry sample gas. The analysers are reliable and easy-to-operate instruments. The measuring value and the sample flow through the measuring cell are displayed on the digital display. 2 alarm relays and 1 malfunction relay are available. Sample gas connections as well as connectors for incomi ng power supply, output signals are located at the rear panel of the analyser. The sample gas enters the analyser passing a protective fine-filter which is installed in the front-panel (not for APA 200). An atmospheric pressure sensor is implemented so that the actual absolute barometric pressure can be sent via RS232 and used for calculation or analysis purposes.
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The analyzers can measure the concentration of multiple gases simultaneously. It is based on the single source dual-beam non-dispersion infrared (NDIR) method for CO, CO2 , CH4 , CnHm, H2S , SO2 and a micro-TCD (Thermal Conductivity Detector) gas sensor for H2 and O2 by fuel cell method. The analyzers have a digital pulsable infrared source and dual-beam systems
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This unique microprocessor controlled Peltier Cooler has been designed with a powerful dew point stabiliser. The dew point is set at 4°C but can be changed at any value between 1 and 15°C. The condensate that is formed should be removed by a peristaltic pump, automatic drain or collection vessel.
The heat exchanger is demountable and PFA®-coated.
The digital controlled cooler has many control and warning features like programmable alarms, mA-output, digital inputs and Modbus or RS485 communication. The alarm status changes when the temperature deviates by • ± 3 °C from the set point.
Available for 230VAC and 115VAC power supply.
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The APA analysers are suitable and reliable instruments for monitoring oxygen concentrations in various gas analytical control applications including flue gas-, inert gas-, fermentation processes- and process or laboratory control measurements. All analysers are temperature controlled instruments which have been designed for continuous measurements of oxygen concentrations in particle-free and dry sample gas. The analysers are reliable and easy-to-operate instruments. The measuring value and the sample flow through the measuring cell are displayed on the digital display. 2 alarm relays and 1 malfunction relay are available. Sample gas connections as well as connectors for incomi ng power supply, output signals are located at the rear panel of the analyser. The sample gas enters the analyser passing a protective fine-filter which is installed in the front-panel (not for APA 200). An atmospheric pressure sensor is implemented so that the actual absolute barometric pressure can be sent via RS232 and used for calculation or analysis purposes.
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The APF front panel mounting reliably extra-fine filters solids, in particular very fine particles, from the gas stream for gas conditioning applications. The APF uses a very fine, deep-acting filter element that removes particles larger then 100 nanometer from the gas stream. The large filter surface of the cylindrical filter element guarantees reliable extra-fine filtration and a long service life with low pressure drop.
The APF extra-fine filter was primarily developed for 19" front-plate mounting equipment, as is evident from the APF’s small size that is suited to flat-design equipment
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ECO PHYSICS nCLD EL²
Modular Gas Analyzer The nCLD EL2 analyzer is the next generation in two-channel high precision nitrogen oxide measurement. Unique in speed and reliability, the nCLD EL2 is modular designed and capable of simultaneously measuring NO, NO2 and NOX from hot and humid gas sources without additional cooler. The new and intuitive graphical user interface also individually displays and connects to other instruments’ data. -
ECO PHYSICS nCLD EL S
Gas Analyzer The nCLD EL S is the next generation in single-channel NO/NOX measurement. Unique in speed and precision, the nCLD EL S is modular designed and allows the continuous measurement of concentrations in the range of parts per million. The measuring principle complies with international emissions monitoring regulations and its new and intuitive user interface individually displays and connects to other instruments’ data. connects to other instruments’ data. -
ECO PHYSICS nCLD EL
Gas Analyzer The nCLD EL is the next generation in single-channel NO/NOX measurement. Unique in speed and precision, the nCLD EL is modular designed and allows the continuous measurement of concentrations in the range of parts per million. The measuring principle complies with international emissions monitoring regulations and its new and intuitive user interface individually displays and connects to other instruments’ data. -
Ambient Level Gas Analyzer The nCLD AL2 is the next generation in two-channel high precision ambient air monitoring instrumentation. Unique in speed and reliability, the nCLD AL2 is modular designed and capable of simultaneously measuring NO, NO2 and NOX. The analyzers expandable capabilities allow assessment of additional nitrogen based parameters. Its graphical user interface also individually displays and connects to other instruments’ data.
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Ambient Level Gas Analyzer The nCLD AL is the next generation in single-channel high precision ambient air monitoring instrumentation. Unique in speed and reliability, the nCLD AL is modular designed and capable of sequentially measuring NO, NO2 and NOX. The analyzers expandable capabilities allow assessment of additional nitrogen based parameters. Its graphical user interface also individually displays and connects to other instruments’ data.
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SupremeLine Trace Gas Analyzer The nCLD 899 Y analyzer is the next generation in ultra high precision nitrogen oxide measurement. Unique in speed and reliability, the nCLD 899 Y is modular designed and capable of detecting lowest quantities of NO, NO2 and NOX in the range of parts per trillion. The new and intuitive graphical user interface also individually displays and connects to other instruments’ data.